Apache Hadoop 2.3.0 has been released with support for in-memory caching and heterogeneous storage hierarchy for HDFS.

The addition of in-memory caching for HDFS means you can choose to cache specific files or directories in HDFS that apps such as MapReduce, Hive and Pig can then read without the overhead of normal disk-based reads.

According to Justin Kestelyn, on the Cloudera blog, the preliminary benchmarks show that optimized applications can achieve read throughput on the order of gigabytes per second.

Kestelyn reports: that when you cache a file or directory,:

“DataNodes will then cache the corresponding blocks in off-heap memory through the use of mmap and mlock. Once cached, Hadoop applications can query the locations of cached blocks and place their tasks for memory-locality. Finally, when memory-local, applications can use the new zero-copy read API to read cached data with no additional overhead.”

“As an example, Hive is taking advantage of this feature by implementing an extremely efficient zero-copy read path for ORC files.”

Other highlights include some support for heterogeneous storage in HDFS with the addition of heterogeneous storage classes, and simplified distribution of MapReduce binaries via the YARN Distributed Cache.

The heterogeneous storage classes mean that Hadoop can now use different storage types on the same Hadoop clusters, so that it will be possible to put together a mix of SSDs, memory, and different types of disks in the same cluster, and let each application choose the storage type that best fits its performance or cost requirements.